Calculating machine



NOV. 28, 1944. MACHADO 2,363,737

CALCULATING MACHINE Filed April 8 1941 9 Sheets-Sheet l E -S55E55 INVENTOR Arr/bony 19. Mac/redo BY I 2 Z Z ATTORNEY NOV. 28, 1944. MACHADQ 2,363,737

CALCULATING MACHINE Filed April 8, 1941 9 Sheets-Sheet 2 INVENTOR Arr/hang 5. Mac/vaa o ATTORNEY N v. 28, 1944. A a MACHADO 2,363,737

CALCULATING MACHINE Filed April 8, 1941 9 Sheets-Sheet 3 Aim/bony 5 Mycfiada INVENTOR ATTORNEY Nov. 28, 1944. A. B. MACHADO CALCULATING MACHINE Filed April 8, 1941 9 Sheets-Sheet 5 am mum \&

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A. B. MACHADO CALCULATING MACHINE Filed April 8 1941 9 Sheets-Sheet 8 a mm 1417/60/79 5 Machado ATTORNEY Nam 23 1944.

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Nov. .28, 1944. B, MACHADO CALCULATING MACHINE Filed April 8, 1941 9 Sheets-Sheet 9 INVENTOR Arr/hang 5 Mac/vaao j E Z ATTORNEY Patented Nov. 28, 1944 CALCULATING MACHINE Anthony B. Machado, Oakland, Calif., asslgnor to Friden Calculating Machine (30., Inc,, a corporation of California Application April 8, 1941, Serial No. 387,408

10 Claims.

This invention relates to calculating machines and is concerned more particularly with the provision of improved means for controlling the clearing of the registers and positioning of the carriage in a selected tabulated position simul taneously with the clearing operation.

It is a general object of the invention to provide a calculating machine having improved clearing and tabulating mechanism for the registers thereof.

Another object of the invention is to provide a machine of the character described in which the carriage can be returned to a selected ordinal position incident to each clearing operation and in which the clearing operations can be performed on the counter alone in response to depression of the appropriate control key.

Another object of the invention is to provide a calculating machine having selectively operable control means by operation of which the carriage can be positioned in a selected tabulated position with one or both of the registers reset to zero as may be selected.

Other objects of the invention will be apparent from the following description of a preferred embodiment thereof as illustrated in the accompanying drawings, in which:

Figure 1 is a plan view of a calculating machine embodying the instant invention;

Figure 2 is a vertical sectional view through the calculating machine taken in a plane indicated carriage removed and other parts shown schematically for a clearer illustration of the parts shown;

Figure 4 is a fragmentary, rear elevational view of the calculating machine;

Figure 5 is a perspective view of p Figure 6 is a perspective view of one of the small assemblies of the machine;

Figure 7 is a fragmentary plan view of the right end of the carriage with the cover removed;

Figure 8 is a sectional view of a portion of the tabulator mechanism taken in a plane indicated by the line 3-8 in Figure 7;

Figure 9 is a sectional elevation of certain of the control keys taken as indicated by the line 3-9 in Figure 1;

Figures 10 and 11, form together a side elevational view of the machine illustrating certain of the controlling parts of the mechanism;

Figures 12 and 13, taken together, show a secone of the tional elevational view of the machine taken in a plane indicated by the line |2l2 in Figure 1;

Figures 14 and 15 show a sectional elevation through the machine taken in a plane indicated by the line "-44 in Figure 4;

Figure 16 is a sectional view of certain of the parts shown schematically, the view being taken as indicated by the line l6l6 in Figure 4;

Figure 17 is a view similar to Figure 16 bu: showing certain of the parts in operated position.

The invention is disclosed as embodied in a calculating machine having actuating mechanism of the uni-directional, continuous drive cycle type wherein all power driven operations are effected by engagement and disengagement of a single clutch providing the only path of power flow from the motor of the machine to the motor driven parts thereof. Calculating machines of this construction are disclosed in the patent to Carl M. Friden, No. 2,310,281, which issued February 9, 1943, and the application of Carl M. Friden and Anthony B. Machado, Ser. No. 315,986, filed J anuary 27, 1940.

The frame of the machine includes a base l0 (Figures 1, 2 and 3) on which left and right side frame plates l2 and I3 are mounted within casing H. Side plates l2 and I3 may be connected by cross brackets l6, ll, l8 and I9 which serve to support various mechanisms of the machine. The register carriage 22 (Figures 1 and 2) which supports the accumulator and the revolutions counter is mounted on the frame brackets l6 and I3 by rollers 23 for endwise shifting movement laterally of the machine in either direction to various ordinal positions as controlled by means described hereinafter.

Carriage 22 (Figure 2) includes a frame 3| in which numeral wheel shafts 32 are journaled to carry numeral wheels 33 of conventional construction. Numeral wheels 33 have projecting twirler knobs 34 for manual setting thereof. To transmit increments of value to numeral wheels 33, each shaft 32 extends below the frame 3| and has a ten-tooth gear 35 which is actuated by means later described.

Accumulator resetting means Means are provided on the carriage for resetting the numeral wheels 33 (Figure 2) to zero registration including means such as a rack bar ll mounted for endwise sliding movement in the carriage frame adiacent the upper end of the numeral wheel shafts 32 for cooperation with multilated gears 42 carried by numeral wheel shafts 32. Adjacent gears 42 are axially offset to cooperate with the adjacent vertically offset racks formed on rack bar 4| in the usual manner. When rack bar 4| is moved from its normal position to which it is spring urged in the usual manner, it will engage the gear 42 of a numeral wheel 83 displaced from the zero position and reset the numeral wheel to such position. Rack 4| carries a handle 44 (Figures 1 and 7) for manual operation, and may be connected to an actuating bar or slide 43 for power operation. Bar 48 is suitably mounted for sliding movement on the frame 3| and may be selectively coupled with rack bar 4| by means of interponent arm 48 (Figure '7) which is carried by handle 44. Handle 44 is adjustable about an upright axis to control the engagement of arm 48 with the end of a lever 84 pivoted at 85 on bar 43. Lever 84 is urged in a counterclockwise direction by spring 88 for a purpose later described. This mechanism is of the general character of that disclosed and claimed in the copending application of Carl M. Friden, Ser. No. 240,269, filed November 14, 1938, now Patent No. 2,294,083, issued August 25, 1942.

Drive, selecting and actuatinamechanisms The values to be introduced into numeral wheels 33 are selected by means of a plurality of banks or orders of settable value keys 8| (Figures 1 and 2) of conventional construction. Keys 8| are mounted for endwise sliding movement and are adapted to be latched in depressed position by a latching bar 82 associated with each bank of keys 5| and adapted to be operated to release a depressed key by zero key 88 in each order. All of the orders of keys can be released simultaneously by the operation of a key releasing gate 84 (Figure 15) which extends along the front ends of latching bars 82 in the usual fashion. Gate 84 is operable through link 85 and bellcrank 88 by means of keyboard release or clear key 81 in the usual manner.

The keys 8| (Figure 2) cooperate with selecting mechanism including spring urged selecting slides 68 mounted for endwise movement to position gears 69 selectively with respect to the stepped teeth of the associated actuating cylinders 18. Cylinders 18 for adjacent orders are mounted on actuating shafts 1| (Figures 2 and 3) having suitable bevel gear connections with a transverse drive shaft 12 which is suitably journaled in side plates I2 and I3.

Shaft 12 and shafts 1| are driven cyclically from motor 13 through clutch 14 (Figures 3 and 12) which may be driven by suitable gearing 15 from the motor shaft 18. Clutch 14 may be engaged or disengaged by oscillation of spring urged clutch pawl or dog 11 (Figure 12) mounted for rotation with shaft 12 and with respect to ratchet 18 journaled On shaft 12 and driven by gearing 15. Clutch control lever'19 is pivoted on side plate I3 to determine engagement or disengagement of the clutch by releasing or engaging the nose of dog 11 in the full cycle position thereon.

The number of increments transmitted to a gear 88 (Fig. 2) by a cylinder 18 during cyclic operation of the clutch is transmitted to a square shaft 8| which carries each ordinal pair of gears 89 and extends rearwardly of the machine in the usual manner. Each shaft 8| carries a spool 82 having bevel gears 83 and 84 for cooperation with the aligned numeral wheel gear 35.

The engagement of gears 83 (Figure 2) and 84 with gears 35 is controlled by strap 88 positioned between the gears and mounted by suitable arms 88 for rocking movement with shaft 81. Thus, rocking of shaft 81 determines transmission of said increments to the numeral wheels and also the direction of entering thereon. Any suitable control means such as plus key 88 (Figure 1) and minus key 88 may be provided for rocking the shaft 81 to cause positive and negative registration. Shaft 81 may be centralized by a pair of spring urged centralizing arms 8| (Figure 2) cooperating with a central stop 82 and engaging a pin 88 carried by one of arms 88.

Revolutions counter mechanism The revolutions counter may comprise numeral wheels 5| (Figures 2 and '1) on shafts 82 which may be re-set to zero by rack bar 83 similar to rack bar 4| described above. Rack bar 53 carries handle 48 (Figure 1) for manual operation and may be connected to extension 48 of actuating bar 43 by interponent 480. which is connected to handle 48 for swinging adjustment thereby. Interponent 48a is adapted to cooperate with pin 41 to provide a driving connection from actuating bar 43 to bar 53.

The numeral wheels 5| (Figure 2) are actuated by means of a conventional actuator 81 mounted on a shaft 58 which is rocked from drive shaft 12 through a spring connection in a clockwise direction from the position shown in Figure 2 into operative engagement with the aligned numeral wheel 5|, and then is translated axially to effect entry of the digit. When no count is to be made, the clockwise rocking movement may be restrained by means of a neutralizing finger 59 (Figure 14) carried by a slide 88 guided on cross bracket I1 and pivotally connected to plus-minus gate or strap 86 to be controlled thereby. In the central neutral position of strap 88, finger 89 underlies arm 51a of the counter actuator and thereby blocks rockthe movement thereof.

Carriage shift mechanism The carriage can be shifted selectively in either direction by power driven means controlled by manually operable keys, and this mechanism is of conventional construction. Carriage 22 is provided with toothed shift rack |8I (Figures 2 and 4) along the rear side thereof for cooperation with opposite shift pins I82 on shift gear I83. Shift gear I83 can be rotated in either direction and receives one-half rotation for each rotation of the clutch referred to above. For this purpose the shift gear I83 (Figures 3 and 4) is connected by suitable gearing I84 to respective gear sleeves I86, I81, the gearing being arranged so that the drive from gear sleeve I88 rotates gear I83 in one direction, and the drive from gear sleeve I81 rotates gear I83 in the other direction. The respective gear sleeves I88, I81 (Figure 3) are slotted for engagement by toothed collars I88, I89 mounted slidably but non-rotatably on the rearward ends of a pair of adjacent actuating shafts 1 I.

The sliding movement of collars I88, I88 (Figures 3 and 4) is controlled through forks III by means of spring-urged rods I I I, I I2 which extend forwardly of the machine and abut similar depending arms H3, H4 carried by shaft H8 and sleeve ||1 mounted thereon. Adjacent side plate I3 (Figures 3 and i4) shaft H8 and sleeve I|1 have upstanding arms H8 and H9 operated by suitable rollers on shift keys |2I and I22 so Return-clear control As previously explained, the operation of actuating. bar 43 for the accumulator and counter resetting means can be effected by power, and

these resetting or clearing operations are preferably preceded by a return of the register car-' riage to one of its end positions. The combined carriage shifting and resetting operations are preferably controlled and brought into play by return'clear key I4I. V

Return clear key I4I (Figure 13) is mounted for endwise sliding movement on side plate I3 by means of respective pins I42 engaging endwise slots in the key Key MI is suitably spring-urged to the raised position. shown in Figure 13. Intermediate its ends, the key MI is provided with an aperture I43 in which is disposed the pin I44 carried by a bellcrank I46 pivoted at I41 on side plate I3. The lower end of bellcrank I46 is connected by a link I48 (Figures 12 and 13) with an arm I49 pivoted at II on the side plate. Arm I49 is also connected by link I52 with a bellcrank I53 mounted on transverse shaft I54 (Figures 2, 4, and 12).

As described presently. rocking of shaft I54 by depression of key I4I serves to enable the shift to the leftmost carriage position to enable the power clearance mechanism and to engage the clutch and close the motor circuit.

Shaft I54, key I, and the parts controlled thereby are maintained in operative position by a suitable latch. As seen in Figure 13. key MI is provided at its lower end with latching tooth I56 for engagement by the offset end I51 of a latching slide I58 (Figures 12 and 13). Latching slide I58 is slotted to engage guide pin I 59 and at its rearward end is connectedto a lever I6I pivoted on transverse pin I62. Spring I63 urges latching slide I58 to the right as viewed in, Figures 12 and 13 so that upon depression of key I tooth I51 engages over the latching tooth I56 of the key. Lever I6I (Figure 12) is pivotally connected at its upper end to a link I64 which extends upwardly and is pivotally connected at I66 to the latch releasing arm I61 which is operated near the end of the power clearance operation as later described to release the latch for key I when it is restored to raised position.

As previously explained, the rocking of shaft I54 serves to engage the left-hand carriage shift mechanism and the power clearance mechanism. Referring to Figure 2, shaft I54 carries an up-- standing arm |1I havinga pusher link I12 adjustably pivoted thereon at I13. Pusher link I12 is urged in a clockwise direction by a spring I14 also connected to arm I1I to urge this arm in a counter-clockwise direction whereby through the associated linkage key MI is resiliently urged to-its raised position.

Pusher link I12 (Figure 2) carries a pin I16 cooperatively related with depending arm I11 secured on a transverse shaft II6. Shaft II6 as previously described, carries depending arm Ill (Figure 3) which abuts the end of shift control rod II I for the shift drive connection to the left.

To enable the power driven resetting mechanism, pusher link I12 (Figures 2 and 3) is provided with an offset notched end I18 in operative pushing engagement with the end of control rod I19 for the power clearance drive. This engagement is maintained by the tension of spring I14. As seen in Figures 2 and 3, rod I19 extends rearwardly and carries control fork I8I for shiftable drive establishing collar I82 having a slidabl but non-rotatable driving engagement with one of actuating shafts 1I. Collar I82 is toothed for engagement with the slotted hub I63 of cam I84 (Figures 2, 3, and 4).

As seen in Figure 4, cam I84 is operatively related with arm I86 to drive actuating slide I81 for power resetting, which in the leftmost position of the carriage is operatively related to arm I88 carried by actuating bar 43. The above described mechanism forms part of a conventional power return clearance mechanism as described in said application, Ser. No. 240,269.

Depression of key I4I also engages the clutch and enables the motor circuit through the rocking of shaft I54. Shaft I54 (Figure 14) carries the depending arm I9I having a pin I32 adapted to rock an arm I93 pivoted at I94 on side plate I3. Arm I33 has an upstanding finger I96 operatively related with roller I91 carried at the lower end of lever I26. Thus upon depression of key I4I, lever I26 will be rocked in a counterclockwise direction as viewed in Figure 12 to close the motor circuit contact and to move clutch control lever 19 to clutch engaging position.

To release the latched key I4I at the end of the return-clearing operation, the over-rotation of shift pins I02 during the resetting operation is utilized. During the clearing cycle one of shift pins I02 is engaged in the endmost tooth space of shift rack IOI which is formed in part by pawl 20I pivoted at 202 on the rack and urged against pin 203 by spring 204. One of the shift pins I02 rotating in a clockwise direction during the clearing cycle serves to operate pawl 20I and move it downwardly to engage with the end 206 of L- shaped lever 201 pivoted at 208 on plate I6. Lever 201 is spring-urged upwardly by spring 201a. End 206 carries-an ear 209 overlying an extending ear 2I0 of lever I61 so that this lever is moved downwardly and through link I64 and lever I6I serves to move latch slide I58 to release the depressed key.

To disable one of the functions of lever 201 upon its depression, key I4I carries a roller.2II overlying a lever 2I2 (Figures 12 and 13) pivoted on pin I59 and connected to link 2I3 which extends rearwardly (Figure 12 and 14) and Is guided at its rearward end by pin 2I4. Link 2I3 carries a pin 2I6 engaging in the slotted lower end of a link 2I1 which for a purpose later described overlies a pin 2I8. Upon depression of key I, link 2I3 is moved to the right as viewed in Figure 14 to move link 2I1 off of the pin 2I6 to disable this connection as later explained in detail.

Tabulation and dividend entry The tabulating and dividend entering mechanism of the instant invention operates to zeroize the registers as a preliminary to a division operation. and to effect entry of the dividend into the accumulator in any selected ordinal position which may be pre-set in accordance with the problem being solved, while suppressing the usual count made in the revolutions counter during entry of a number in the accumulator. After setting of the dividend into the keyboard, the only other operation necessary is the depression of the dividend control means or key, after which the machine automatically operates to perform the above described functions, the desired ordinal position of the carriage upon entry of the dividend having been pre-set in accordance with the number of'quotient figures desired, or the desired position of the decimal point in the quotient.

In the embodiment of the invention selected for illustration, the first operation which occurs upon depression of the dividend key is a shifting of the carriage to its leftmost position if displaced therefrom for a power clearance operation.

Dividend key.-Referring to Figures 1 and 12, a dividend key 22I is mounted for endwise sliding movement on side plate I! by means of pin 222 engaging a, slot therein. Spring 225 urges key 221 to the raised position shown in Figure 12. The lower end of key 22! is provided with elongated slot 224 which is engaged by pin 225 carried at the end of lever I53 mounted on transverse shaft I54.

Intermediate its ends, key 22f (Figure 12) is provided with latching face 23l for engagement by the latching end of a latch slide 252 mounted for endwise sliding movement on side plate I3 with its rear end pivotally supported on upstanding pivotally mounted arm 233. Spring 234 is associated with arm 233' to urge slide 232 to latching position. Thus, upon depression of key 22l it is latched in depressed position, and it remains there until the end of the operation when unlatching occurs bymeans described later.

Depression of key 22I serves to enable a shift of the carriage to the left, to enable a power clearance mechanism, to condition the shift to the right, to block out the counter actuator, and to enable the drive.

The shift of the carriage to the left, the power clearance mechanism for the registers, and the enabling of the-drive are determined when depression of key 2 (Figure 12) operates through arm I53 to rock the shaft I54 which operates in the manner previously described. It will be noted that the slot 224 in key 22l engaging pin 225 is of sufficient length to allow movement of lever l53 independently of key 22l. Correspondingly, aperture I43 (Figure 13) in key I also allows independent idle movement of bellcrank I45 upon depression of key 22L As previously stated, depression of the dividend key 22! also serves to block out the counter actuator and prevent operation thereof, and to condition the shift mechanism for shifting to the right at the end of the return-clear operation.

As seen in Figures 12 and 14, the lower end of dividend key MI is engaged in its uppermost position with a roller 2 carried by lever 242, pivoted at 243 on side plate l3. Lever 242 (Figure 14) carries a roller 244 operativeiy disposed beneath the forwardly extending arm 245 of a bellcrank 255 pivoted on shaft 241, which is suitably mounted on side plate i3. The movement of bellcrank 245 is utilized to block the counter actuator from operation and also to condition the shift mechanism for shifting the carriage to the right at the end of the return-clear operation.

In order to block out the operation of the counter actuator by movement of the bellcrank 245 (Figure 14), the upright arm 248 of the bellcrank 245 carries a pin 249 operativeiy engaged with lever 250, pivoted at "I on side plate It. The upper end of lever 250 is pivotally connected at 252 with blocking slide 253 having projection 254 lying normally out of the path of oscillation of arm 51a of the counter actuator assembly. Counter-clockwise rocking movement of bellcrank 245 operates through lever 250 to move the slide 253 and projection 254 thereof to the right from the position shown in Figure 14 to place projection 254 in the path of arm 51a so that movement of the counter actuator to active position is prevented as previously explained in connection with neutralizer slide 50. Spring 255 aids gravity in restoring lever 250, slide 253 and bellcrank 245 to inactive position at the end of the operation.

In order to condition the shifting mechanism for tabulation to the right, arm 255 (Figure 16) is formed integrally with bellcrank 245 and is pivotally connected at 251 to a link 255 extending rearwardly and riding on roller 259 on an arm 25| also pivoted on shaft 241. Arm 25l has an arm 253 pivoted thereon and is connected thereto by spring 252 so that arm 253 is biased to move with arm 25!. Shift engaging arm 253 has a curved upper end 254 operativeiy engaged with shift controlling fork I I0 of the right hand shifting mechanism. Link 255 is adapted to be disposed between the roller 259 and lever 201 (Figures 4 and 16).

In order to establish a driving relation between the lever 201 and arm 25I, link 255 is provided with a projection 255 which normally is disposed out of the path of the lever 201, as shown in Figure 16, but is moved into the position shown in Figure 17 upon depression of the dividend key, so that when the lever 201 is subsequently depressed, as later described, arm 25! is rocked to operate through spring 252 (Figure 17) to place a bias on arm 253 to engage the shift clutch for determining shifting or tabulation to the right as later described.

Thus, upon depression of the dividend key 22l, the first operation which ensues is a shifting of the carriage to its leftmost position if displaced therefrom. where a clearing or resetting operation is performed on either or both the accumulator and counter. The clearing of the registers occurs during a cycle of operation with the carriage in its leftmost position, as shown in Figure 4, where one of shift pins I02 is engaged in the endmost tooth space of shift rack i0i against pawl 20L With the carriage in the position shown, shift pin I02 during the clearing cycle, rotating in a clockwise direction serves to oscillate pawl 20l so that it strikes end 205 of lever 201, and moves it downwardly, and this movement is utilized to initiate shifting of the carriage to theright to the selected position for entering the dividend.

At the beginning of the clear cycle interponent arm 258 has its projection 255 disposed between the lever 201 and roller 259 on shift conditioning arm 25L Thus, when pawl 20l is actuated, lever 201 is depressed from the position shown in Figure 16 to that shown in Figure 17, when lever 25l operates through spring 252 to place tension on shift engaging arm 253, The movement of shift engaging arm 263 from the position shown in full lines in Figure 17 to that shown in dotted lines is delayed until the end of the cycle by interlock means associated with the shift engaging mechanism.

Referring to Figures 3 and 4, the int l k means comprises lever 21l, pivoted at 212 on a 303 (Figures 3 and 14).

suitable bracket carried by rear frame bracket l6, and having a pair of upstanding pins 213 spaced from and disposed in the path of respective shift forks carried by rods III and H2. As seen in Figure 3. when one shift fork is moved rearwardly to engage the corresponding shift drive connection, the opposite pin 213 moves into blocking engagement with the other shift fork M0 to prevent operative movement thereof until the other shift drive is disengaged. Inasmuch as the shift drive for determining shifting to the left remains engaged until rocking of pawl during the clear cycle, initiation of the shift to the right by movement of shift rod H2 by the hooked end 264 of arm 263 cannot occur until the end of the resetting cycle.

During the resetting cycle, certain other conditlonings are effected in the machine. As seen in Figures 4, 6, and 14, arm 26I has integrally formed therewith a bellcrank 216 and both arm 26| and bellcrank 216 are urged to the position shown in Figure 16 by spring 211 attached to arm 26l and to the frame. The movement of the bellcrank 216 with arm 26I from the position shown in Figure 16 to that shown in Figure 17 is utilized to condition the control for entering the dividend at the end of the shifting operation to the right, and for maintaining the shift engaged until the selected tabulated position is reached.

To latch the bellcrank 216 and arm 26| in the position shown in Figure 17, the lower horizontal arm of bellcrank 216 is provided with laterally extending ear 218 adapted for engagement with a seat in a latch lever 219, pivoted at 281 on side plate l3, and urged in a clockwise direction by spring 282. As shown in Figure 17, upon clockwise movement of arm 26| and bellcrank 216, they are latched in position by latch lever 219.

The movement of bellcrank 216 also serves to condition means for engaging the plus-minus gears to enter the dividend at the end of the shift operation. For this purpose the upper arm of bellcrank 216 (Figure 14) is pivotally connected to a link 286 which is pivotally connected at 281 with a depending arm 288 pivoted to an actuating slide 289 mounted for vertical sliding movement on side plate I3, by slotted engagement with respective pins 29I. As shown in Figure 14, depending arm'288 is normally to one side of an car 292 of a latching bell-crank 293 which serves to determine engagement of the plus-minus gears for entry of the dividend. As shown in Figure 17, arm 288 is operatively related to ear 292 so that downward movement of slide 289 will release latch lever 293 as later described.

The movement of lever 201 and end 206 thereof during the resetting operation also determines release of the shift connection determining shifting to the left. For this purpose bellcrank 299 (Figure 14) is pivoted on shaft 81 and has an arm disposed beneath lever 201. The depending arm of bellcrank 299 is pivotally connected to link I, having its forward end pivotally connected to depending arm 302 secured on transverse shaft Shaft 303 (Figures 2 and 3) carries an arm 304 which is slotted at its offset end to receive pusher link I 12. Thus, counter-clockwise movement of the bellcrank 299, as viewed in Figure 14, moves link 30| forwardly to rock shaft 303 in a counter-clockwise direction (a clockwise direction as viewed in Figure 2) so that arm 304 lifts pusher link I12 against the urgency of spring I14 to move end I18 thereof out of engagement with push rod I19 for the clear mechanism, and to disengage pin I16 from arm I11 of the control means for determining shifting to the left. In this manner, both the shift connection for left hand shifting and the drive connection for resetting are disabled during the cycle performing the resetting operation so that they can be disengaged near the end of such cycle.

Tabulation control It will be recalled that when the right hand shift mechanism is acting as shown in Figure 17 by the dotted line position of shift control fork N0, the control linkage therefor is latched in operative position by the engagement of latch 219 with bellcrank 216, and also that slide 269 is in operative position to actuate latch 219 to release bellcrank 216. A tabulation control is provided for effecting this release selectively in any shifted position of the carriage.

As seen in Figures 1, 2, and 8, the carriage 22 is provided with a series of tabulator keys 3| I, numbered 0 and 2 to 10 in accordance with the position of the carriage. In the first or leftmost position of the carriage zero tabulator key 3|2 is aligned with arrow 3| 3 on the casing of the machine. Tabulator keys 3| I, 3|2 (Figures 2 and 8) are mounted for vertical endwise movement in broached slots in carriage frame bar 3, and keys 3| I can be latched in depressed position by spring urged latching slide 3|6, which is adapted to engage over the tooth 3|1 of a depressed key. Zero key 3|2 provides a release key for any depressed key 3|| which it may be desired to release in changing the setting of the machine to cause positioning of the carriage in its rightmost position. In alignment with the 10" key 3 (Figure 14) a beveled fix cam (not shown) is provided which operates arm 322 irrespective of the depression of 10 key 3| I. Thus 10" key 3 is a dummy key provided merely for the operators convenience. Latching slide 3|6 is maintained in position in the frame bar 3| 4 by retaining bracket 3 I8. Keys 3| I and 3|2 are urged to their raised positions by respective springs 3| 9 associated therewith.

A depressed key 3 as indicated in dotted lines in Figure 8, is adapted to engage a V-shaped laterally extending ear 320 of an arm 322 pivoted at 323 on frame bracket I9. As shown in Figure 8, in the leftmost position of the carriage, release key 3|2 is aligned with the extension 320, and correspondingly if the carriage is displaced one or more ordinal spaces from its leftmost position, the corresponding key 3 will engage the nose 320 and depress the arm 322. Adjacent its end, arm 322 (Figures 8 and 14) carries roller 324 which is disposed above the upper end of actuating slide 289. Thus, when the carriage shifts into a predetermined position, the actuating slide 289 is operated to move latch 219 from the position shown in Figure 17 to that shown in Figure 16, to release bellcrank 216 and arm 26I and thereby permit disengagement of the shift mechanism for shifting the carriage to the right. This operation will occur toward the end of the last shift cycle.

The downward movement of actuating slide 269 as the carriage enters its selected position also. serves to release spring actuated means for meshing the plus-minus gears, and for releasing the dividend key. The downward movement of slide 289 (Figure 17) acts through interponent arm 288 which was operatively positioned by link 286 when bellcrank 216 was latched to rock latching bellcrank 293 in a counter-clockwise directhe dividend key.

tion and thereby move its latching notch 33l (Figure 12) out of the path of offset ear 332 of a bellcrank 333, pivoted on pin 334 extending between side plate I3 and bracket 335 on plate 336 (Figure 10). Beilcrank 333 is urged in a counterclockwise direction by a relatively strong spring 331 and has its upper end formed as a cam nose, for operative engagement with roller 338 carried at the lower end of a lever 333 (Figures 4 and 12) having a hub 340 journalled on shaft 81. Hub 346 ha a releasable clutch connection with collar 34I secured on shaft 81, and the clutch connection is maintained normally engaged by spring 342. As seen in Figure 12, the cam nose of bellcrank 333 is spaced from roller 338 in the neutral position thereof to permit normal movement of shaft 81 and lever 333 therewith during registration of a negative character. Upon release of bellcrank 333, the cam nOSe thereof becomes effective to rock lever 333 and shaft 81 in a clockwise direction, and thereby mesh gears 83 with numeral wheel gears (Figure 2) to determine a positive registration therein during the dividend entering cycle, when the amount set up in the keyboard will be entered as the dividend in the selected tabulated position of the carriage.

Movement of lever 333 also serves to actuate latch slide 232 (Figure 12) and thereby release It will be recalled that the dividend key serves to hold counter blocking slide in active position, and means is brought into play to prevent movement of counter blocking slide 253 out of active position when the key is released. For this purpose the offset ear 332 (Figure 14) of bellcrank 333 moves downwardly in front of offset ear 343 on lever 258 and maintains slide 253 in blocking relation with the counter actuator during entering of the dividend.

The movement of bellcrank 333 which initiates the dividend entering operation also enables means for restoring such bellcrank to inoperative position. As shown in Figure 10, the lower end of bellcrank 333 is connected by link 346 with an arm 341 pivoted on plate 336 and having its upper end normally disposed out of the path of a roller 348, carried by a gear 343 on the end of transverse shaft 12. However, counterclockwise movement of bellcrank 333 serves through link 346 to move arm 341 into the path of roller 348, so that near dend entering cycle of operation after entry of the dividend into the accumulator, roller 348 rocks arm 341, and through link .346 oscillates bellcrank 333 in a clockwise direction so that latch 233 can again move to active position as shown in Figure 12. The return of bellcrank 333 also moves tooth 332 thereof out of engagement with tooth 343 so that lever 253 and link 253 can return to inactiv position, as shown in Figure 14. Lever 253 and link 253 are returned to their Figure 14 position by the action of gravity and spring 255.

To maintain the drive through the dividend entering cycle, the upper end of arm 341 (Figure 10) has pin 351 engaging the slotted end of a link 352 pivoted at 353 in link I28 (Figure 12) of the drive controlling, linkage. When arm 341 is moved clockwise (Figure 10) to active position, pin 35I thereon moves to the end of the slot in link 352 to maintain the clutch and circuit controlling parts in active position.

The above described dividend entering and tab.- ulating mechanism is of the general character disclosed in said application Ser. No. 315,986, filed January 2'1, 1940, for Calculating machine."

the end of the divi- Counter clear and tabulation As previously stated, the instant invention includes the provision iof means for initiating a clearing and tabulatlng operation whereby the revolutions counter alone is cleared and the carriage is positioned in a pre-selected position for subsequent operations.

In order to accomplish the above result, a manually operable key is provided which upon operation'brings into play the return clear mechanism referred to above, conditions the tabulating mechanism for a shift to the right after the return clear operation, disables the dividend entry means of the tabulating mechanism, and disables the accumulator resetting means.

Referring to Figures 9, 10 and 11, the manually operable control means comprises key 36I which is mounted for endwise sliding movement by slots therein engaging on respective studs I42. Key 36I is spring-urged to its raised position as shown in Figure 11 and when depressed is adapted to be latched in depressed position b virtue of its offset lug 363 being engaged by spring urged latching slide 364. Slide 364 is mounted for endwise sliding movement by engagement with stud I53 and pin 361 on arm 341. Spring 368 urges slide 364 to latching position and the slide is moved to unlatching position by the operation of arm 341 as will be later explained.

As stated above, upon depression of key "I, the clutch is engaged and the return clear mechanism is brought into operation. For this purpose, bellcrank I46 is provided with a pin 368 which engages in an aperture 31l within key 36I so that the clutch is engaged and the return clear mechanism brought into operation in the same manner for key 36I as for ke I of the return clear mechanism.

To condition the right hand shift means for tabulating operation, to disable the dividend entering means usually associated with the tabulating mechanism, and to disable the accumulator resetting means, key 36I is provided with a roller 312 (Figure 11) acting upon a bellcrank 313 (Figures 10 and 11) pivoted at 314 and having a pivotal connection at its opposite end (Figure 10) with rearwardly extending link 316. Link 316 is spring-urged in a direction to maintain key 36I in raised position by spring 311. At its retward end, link 316 is pivotally connected at 318 with an upstanding arm 313 of a ball "I (Figures 4 and 10) which is pivotally mounted on shaft I62.

In order to enable the right hand tabulating shift mechanism, one arm of ball 3" (Figures 4 and 17) is provided with a roller 383 lying under an extension 384 of arm 256. As previously explained, the arm 256 carries interponent member 258 which, when moved to position shown In Figure 17 during the resetting cycle will throw in and latch the right hand shift mechanism until it is subsequently disabled in the tabulated order by virtue of the tabulating key which is depressed.

In order to disable the dividend entering mechanism, the bail 38l (Figures 4, 10 and 12) is provided with an ear 386 which lies over the upper edge of a bail 381. Ball 381 is of the character disclosed in said application, Ser. No. 315,986, and is operated upon setting of a. suitable control lever to oscillate its arm 388 (Figures 4 and 10) carrying roller 383. Roller 383 engages the lower cam end of a lever 33I pivoted at 332 and having a pin 333 at its upper end. Pin 383 is In cooperative relation with lever 339 to move it outwardly against the energy of spring 342 to disengage hub 340 from collar 3. In this way, the movement of lever339 which would otherwise engage the plus-minus gears is disabled. In order to disable the accumulator resetting means, the bail 38l (Figures 4 and 14) carries the roller 2l8 which aspreviously described is in operative engagement with link 2H. Link 2 I! is pivoted at 395 to a slide 396 mounted for endwise sliding movement on rear bracket Hi. When slide 396 is moved upwardly from the position shown in Figures 4 and 14, it is adapted 'to engage a cam pin 39! carried on a bail 39B pivoted at 399 on bracket 40! secured to the carriage frame 3|. Slide 396 and cam pin 39! are aligned with the carriage in its leftmost position and the upper end of slide 398 is provided with an inclined cam face 402 for engagement with the pin 39! as the carriage enters its leftmost position. The upper end of bail 398 (Figure M lies behind a pin 403 (Figures 4, '7 and 14) depending from spring-urged lever 54. As previously described, lever 54 provides the releasable connection between the resetting rack bar 4| of the accumulator and the actuating bar 43 therefor.

Thus upon depression of the counter clear key 36!, the mechanism is brought into operation to position the carriage in a selected tabulated position with the counter reset to zero but with the accumulator at its original setting. In this way. products or items can be accumulated while individual multipliers or numbers of item entries are entered successively in the counter.

If the counter clear key 361 and the return clear key l4! ar depressed simultaneously. the return clear key moves link 2|! off p n 2H3.- As

previously described the return clear key I (Fig. 13) by means of aroller 2H rocks a lever 2l2 (Fig. 12) which moves the link 2l3 forwardly. The link M3 at its rear end (Fig. 14) has a pin ZIS by which it swings the depending link 2|! on its pivot to disconnect it from the pin 2l8 so that when the return clear key 14! and the key 36I are depressed simultaneously, the slide 396 is not elevated and the accumulator is cleared. In this type of control, the carriage is positioned in the position selected by the depressed tabulating key 3| l with both the accumulator and counter reset to zero.

I claim:

1. In a calculating machine having an ordinally shiftable carriage. a pair of registers, at least one of said registers being mounted in said carriage, and resetting means for said registers; a manually operable key, means controlled by said key for causing operation of the resetting means for one of said registers only. means also controlled by said key for preventing operation of the resetting means for the other of said registers, a second manually operable key, a controlling connection from said second key for causing operation of the resetting means for both of said registers, and means controlled by said second key for rendering said preventing means ineffective, whereby upon simultaneous operation of said keys both said registers are reset to zero.

2. In a calculating machine having an ordinally shiftable carriage, an accumulator in said carriage, a revolutions counter, resetting means for said accumulator and said counter, and common power driven means for operating said respective resetting means; a manually operable key, means controlled by said key for causing operation of said power driven means, means also controlled by said key for preventing operation of said accumulator resetting means by said power driven means, control means for said resetting and power driven means including a second manually operable key, and means tentrolled by said second key disabling the control of said first key over said accumulator resetting means, whereby upon simultaneous operation of said keys both said accumulator and said counter are set to zero.

3. In a calculating machine, a pair of registers, resetting means for each of said registers, a common drive member for operating said resetting means, the drive connection from said member to the resetting means of one of said registers including an element yieldably urged to active position, a control key, and means operated by said key upon manipulation thereof for causing operation of said member and for moving said element to inactive position.

4. In a calculating machine, a pair of registers, resetting means for each of said registers, a common drive member for operating said resetting means, the drive connection from said member to the resetting means of one of' said registers including an element yieldably urged to active position, a control key, means operated by said key upon manipulation thereof for causing operation of said member and for moving said element to inactive position, a second control key, means controlled by said control key for causing operation of said member, and means also controlled by said second control key for rendering said moving means ineffective.

5. In a calculating machine, a frame, an ordinally shiftable carriage on said frame, a pair of registers in said carriage, resetting means for each of said registers, a common drive member carried by said carriage for operating said resetting means, the drive connection from said member to the resetting means of one of said registers including an element yieldably urged to active position, a control key on said frame. means operated by said key upon manipulation thereof for causing operation of said member, and means mounted on said frame and controlled by said key for cooperation with said element for moving said element to inactive position.

6. In a calculating machine, a frame, an ormember to the'resetting means of one of saidregisters including a pair of adjustable elements, one of said elements being manually settable between active and inactive positions, the other of said elements being yieldably urged to active position, a control key on said frame, means operated by said key upon manipulation thereof for causing operation of said member, and means mounted on said frame and controlled by said key for moving said other element to inactive position.

7. In a calculating machine, a register, resetting means for said register including a resetting rack member mounted for endwise movement to perform the resetting operation, a slide member also mounted for endwise movement parallel to the movement of said rack member, a drive connection between the rack member and the slide member including a manually adjustable arm on one of said members, said arm being settable between active and inactive positions, and a second arm pivotally mounted on the other of said members and spring urged into engagement with said first named arm, machine operation control means including a control key and means controlled by said key for moving said yieldable arm to inactive position and for causing operation of said slide member.

8. In a calculating machine having a keyboard for entering values, a carriage ordinally shiftable relative to said keyboard, an accumulator in said carriage for registering values entered in said keyboard, a counter in said carriage, means for resetting said accumulator, means for resetting said counter, mechanism for returning said carriage to an end position and for actuating both said resetting means, a control for said mechanism, a key for actuating said control, mechanism for tabulating said carriage to a selected ordinal position conditioned by said key, a sequential operation control means for automatically initiating operation of said tabulating mechanism after operation of said resetting means, and means set by said key to render said accumulator resetting means inoperative.

9. In a calculating machine having a keyboard, a register ordinally shiftable relative to said keyboard, an operation control mechanism to facilitate conditioning the machine for calculation, comprising means operable to reset said register to zero, actuating means for said resetting means, an adjustable drive transmitting connection intermediate said actuating means and said resetting means, means for tabulating said register including a plurality of ordinal tabulator keys selectively operable to determine the order to which the register is tabulated, means to shift the register to the selected ordinal position, a control for causing operation of said shift means, means controlled by a selectively operated tabulator key for rendering said control for said shift means inoperative to conclude the tabulation of said register, a key for initiating operation of said operation control mechanism, means set by said key to render inoperative said adjustable drive transmitting connection intermediate said resetting means and said actuating meanstherefor, and means set by said key to render said. control for said shift means operative to cause tabulation of said register.

10. In a calculating machine having a keyboard, a register ordinally shiftable relative to said keyboard, an operation control mechanism to facilitate the performance of problems in division, comprising means operable to reset said register to zero, actuating means for said resetting means, an adjustable drive transmitting connection intermediate said actuating means and said resetting means, means for tabulatin said register including a plurality of ordinal tabulator keys selectively operable to determine the order to which the register is tabulated, means to shift the register to the selected ordinal position, a control for causing operation of said shift means, means including an adjustable transmission means for entering a value set on said keyboard in said register, means controlled by a selectively operated tabulator key for rendering said control for said shift means inoperative to conclude the tabulation of said register and to adjust said transmission means to cause entry in said register of the value set in said keyboard, a key for initiating operation of said operation control mechanism, means set by said key to render inoperative said adjustable drive transmitting connection intermediate said resetting means and said actuating means therefor, means set by said key to render said control for said shift means operative to cause tabulation of said register, and means set by said key to suppress entry of a value in said register by preventing said means controlled by a tabulator key from adjusting said transmission means to cause entry in said register.

ANTHONY B. MACHADO. 

